InSbTe phase change materials for high performance multi-level recording

Author

Daly-Flynn, Kelly ; Strand, David

Author_Institution

Energy Conversion Devices Inc., Rochester Hills, MI, USA

fYear

2002

fDate

2002

Firstpage

63

Lastpage

65

Abstract

The accuracy of achieving each of the specified levels in multi-level optical disk media determines the maximum number of levels that can be used to write data. If the standard deviation of the written reflectivity levels is large, the levels need to be spaced further apart for accurate identification of the levels. If the reflectivity range can be increased, additional levels can be used. This relationship is expressed as a ratio between the standard deviation and the dynamic range (SDR). AgInSbTe materials show the ability to achieve very low SDR at low recording speeds (∼2-4 m/s) but most often show increasingly higher SDR at higher speeds (>5 m/s). We describe an InSbTe eutectic-based phase change material that can achieve a low SDR at high as well as low speeds (2-6 m/s).

Keywords

antimony compounds; eutectic structure; indium compounds; optical disc storage; optical materials; reflectivity; storage media; 2 to 6 m/s; AgInSbTe; InSbTe; InSbTe eutectic-based phase change materials; SDR; high performance multi-level optical recording; level spacing/identification; maximum write data level number; multi-level optical disk media; recording speeds; reflectivity range; specified level accuracy; standard deviation/dynamic range ratio; written reflectivity level standard deviation; Amorphous materials; Crystallization; Disk recording; Energy conversion; Optical pulses; Optical recording; Optical signal processing; Phase change materials; Reflectivity; Testing;

fLanguage

English

Publisher

ieee

Conference_Titel

Optical Memory and Optical Data Storage Topical Meeting, 2002. International Symposium on

Print_ISBN

0-7803-7379-0

Type

conf

DOI

10.1109/OMODS.2002.1028568

Filename

1028568